DE112014003657T5 - Power conversion device - Google Patents

Abstract

In a power conversion apparatus having a housing main body 20 having a rear opening formed on a rear surface thereof having a semiconductor element housed therein, adapted to attach and detachably detach a control panel 30 to a front surface thereof and having approximately a parallelepiped shape ; and a frame body 10 that causes the semiconductor element 20 accommodated in the case main body 20 to radiant heat; an air inlet 22a formed in an area of the lower half of a side surface, and an air outlet 22b formed in an area of the upper half of the side surface are provided as ventilation holes communicating between the inside and the outside of the housing main body 20; wherein the side surface is only one of side surfaces of a right side surface 22 and a left side surface 23 in a positional state in which the case main body 20 has been mounted, four surfaces, the other four surfaces as the rear surface, and a front surface 21 of the case main body 20.

Description

area

The present invention relates to a power conversion apparatus.

background

Conventionally, power conversion devices have been used in elevator control, air conditioning systems, and the like. In a power conversion apparatus of this type, a power module which is a main component thereof is accommodated in a control room of its apparatus main body, and a heat sink for cooling this power module is provided. The heat sink is designed to include a frame body forming the device main body. The frame body is made of die-cast, a cooling fan and a cooling fin are installed inside the frame body, the frame body is designed to let in outside air, and a part of the frame body is open to the outside.

Since the power module accommodated inside a case main body is a heat generating part, a heat radiating structure for radiating heat generated by this heat generating part and preventing the temperature in the case main body from becoming high is needed.

In Patent Literature 1, a structure is described in which in an inverter device in which outside air from a cooling fan, which is disposed above a cooling fin, is sucked through the cooling fin, and in which this outside air is discharged from a drain hole of an upper cover, drain holes of the Cooling fan are also formed in a rear cover and a side cover of a box body.

CITATION

patent literature

• Patent Literature 1: Japanese Patent Application Laid-Open No. 2005-348534

Summary

Technical problem

However, there has been the following problem in power conversion devices such as the aforementioned conventional inverter device described in Patent Literature 1. 6 Fig. 16 is a front view illustrating a case main body side of a conventional power conversion device for explaining this problem.

As in 6 Illustrated is on a front surface 101 a housing main body 100 the power conversion device a control panel 102 provided, and a rear surface opposite the front surface 101 is connected to a frame body (not shown). In the housing main body 100 is in a state in which the control panel 102 erect, an air intake 103a on a lower surface 103 provided, and an air outlet 104a is on an upper surface 104 provided for. Further, in a state where the control panel 102 Erected, air outlets 105a and 106a on a left side surface 105 or a right side surface 106 on a left side and a right side of the front surface 101 of the housing main body 100 intended. By such a structure, that of the air intake 103a the lower surface 103 taken in outside air from a lower portion to an upper portion in the housing main body 100 delivered as illustrated by an arrow C ₀ . The air is then out of the respective air outlets 104a . 105a and 106a the upper surface 104 , the left side surface 105 and the right side surface 106 discharged upward as illustrated by arrows C ₁ , C ₂ and C ₃ .

In the power conversion device used in 6 is illustrated, since the air outlet 104a on the upper surface 104 is provided, dust, such as particulate matter, from above the power conversion device in the housing main body 100 enter. The entry of dust into the housing main body 100 , in which a power module and the like are housed, is a cause of a malfunction. Therefore, there has been a demand for a technique for enabling the prevention of the entry of dust into the case main body 100 ,

In addition, if the power conversion device included in 6 is mounted on a wall or the like, it is difficult with the sides in which the ventilation holes, such as the air inlet 103a and the air outlets 104a to 106a , are provided to mount the wall opposite. The reason for this is that neither air intake nor deflation can take place effectively, and the temperature in the housing main body 100 can be increased. Accordingly, the conventional power conversion apparatus has had the problem that the mounting freedom was very low and there was a demand for a technique for improving the freedom.

The present invention has been made in view of the foregoing, and an object thereof is to provide a power conversion apparatus that allows the inside of a housing main body to cool while allowing the entry of dust such as particulate matter into a housing main body of the power conversion apparatus and to assure the freedom of assembly improve.

Troubleshooting

For solving the above-described problem and achieving the object, a power conversion apparatus according to the present invention comprises a housing main body housing therein a semiconductor element constituting a power conversion circuit; and a frame body fixed to a rear surface of the housing main body and housing a heat sink of the semiconductor element, the line conversion device being mounted such that the rear surface or one of side surfaces of the housing main body faces a mounting wall, housing main body side vent holes formed between the inside and outside of the housing Case main body communicate, only on the other of the side surfaces or only on the other of the side surfaces and a lower surface of the housing main body are provided, and frame body side vent holes communicating between the inside and the outside of the frame body, on an upper surface and a lower surface of the frame body are provided.

In the power conversion apparatus according to the present invention, the housing main body side vent holes are formed of at least one air inlet and at least one air outlet.

In the power conversion apparatus according to the present invention, the air inlet is provided in at least one of the lower surface of the case main body and a lower half portion on the other of the side surfaces of the case main body in a posture state in which the case main body has been mounted, and the air outlet is in one Provided area of the upper half on the other of the side surfaces of the housing main body in the position state in which the housing main body has been mounted.

In the power conversion apparatus according to the present invention, an air suction unit configured to introduce outside air into the case main body is provided near the air inlet inside the case main body. Or, in the power conversion apparatus according to the present invention, as set forth in the above-described invention, an air outlet unit configured to output indoor air from within the housing main body is provided in the vicinity of the air outlet within the housing main body.

Advantageous Effects of the Invention

By the power conversion device according to the present invention, the inside of the case main body can be cooled while the entry of dust such as particulate matter into the case main body of the power conversion device can be suppressed, and the freedom of assembly can be improved.

Brief description of the drawings

1 FIG. 15 is a perspective view illustrating a power conversion device according to an embodiment of the present invention. FIG.

2 FIG. 13 is a schematic explanatory diagram of a case where the power conversion apparatus according to the embodiment of the present invention is mounted on a wall. FIG.

3 FIG. 15 is a schematic explanatory diagram for explaining an air flow flowing inside the power conversion device according to the embodiment of the present invention. FIG.

4 FIG. 15 is a perspective view for explaining a mounting state in the case where the power conversion device according to the embodiment of the present invention is mounted on the wall. FIG.

5 FIG. 15 is a perspective view for explaining an example of a mounting method in the case where the power conversion device according to the embodiment of the present invention is mounted to the wall. FIG.

6 Fig. 16 is a front view illustrating a case main body of a conventional power conversion device for explaining a problem of a conventional technique.

Description of embodiments

Hereinafter, an embodiment of the present invention will be described with reference to the drawings. In all drawings of the In the following embodiment, the same reference numerals are added to the same or corresponding parts. Furthermore, the present invention is not limited by the embodiments described below.

First, a power conversion apparatus according to the present invention will be described. 1 FIG. 16 is a perspective view illustrating the power conversion apparatus according to this embodiment. FIG. 2 is a schematic approximate representation of a front view in a case in which this power conversion device is mounted on a wall, and 3 FIG. 12 is a schematic, proximate view of a front view illustrating an airflow passing through within the power conversion device. FIG. 4 FIG. 15 is a perspective view illustrating a state in the case where the power conversion device is mounted to the wall. FIG. The power conversion device, an example of which is illustrated herein, includes a device main body 1. The terms "front,""behind,""upper,""lower,""left," and "right" in the following Description will be made to a front side, a rear side, an upper side, a lower side, a left side, and a right side when directly confronting a control panel in an upright posture, wherein the apparatus main body 1 was mounted as in 2 illustrated.

As in 1 The device main body is illustrated in FIG 1 designed so that it has a frame body 10 and a case main body 20 includes. The frame body 10 forms a cuboid shape with openings on an upper surface and a lower surface thereof, and is formed of, for example, a die-cast. Further, on any one of the upper surface and the lower surface in the frame body 10 a cooling fan (not shown) is provided. By this cooling fan, outside air from the lower surface of the frame body 10 sucked, as illustrated with an arrow A ₀ , and this sucked outside air is discharged through the upper surface, as illustrated by an arrow A. Through this in the frame body 10 sucked outside air become one in the frame body 10 housed cooling fin and the like (not shown) cooled. As the wind power through the cooling fan when cooling the frame body 10 is strong, is the entry of dust, such as particulate matter, from the upper surface of the frame body 10 small, and even if dust occurs, there is no problem because the cooling fin and the like are not devices, thereby causing malfunctions. As further in 4 are in the frame body 10 mounting holes 43a . 43b . 44a , and 44b for mounting the power conversion device on a wall 40 , such as a plate, on a top surface 25 trained, and notches 41a . 41b . 42a and 42b are on a bottom surfaces 24 educated.

As in 1 illustrates, the housing main body 20 a rear side opening formed on the rear surface thereof and forming approximately a parallelepiped shape, wherein a semiconductor element constituting a power conversion circuit and a control device controlling this semiconductor element are accommodated. The case main body 20 is side by side with the frame body 10 arranged by it with the frame body 10 is connected so that it has a front portion of the frame body 10 covers. The case main body 20 forms between the housing main body 20 and the frame body 10 a recording room serving as a control room housing therein various control devices. Besides, in the frame body 10 a heat sink (not shown), such as the cooling fin, accommodated for cooling the semiconductor element, but the frame body 10 and the heat sink may be integrated with each other or not integrated with each other.

In addition, surfaces are surfaces other than those with the frame body 10 connected back surface, the housing main body 20 Are defined. That is, the case main body 20 includes five other surfaces besides the one with the frame body 10 connected area, which is a front surface 21 , a right side surface 22 , a left side surface 23 , one under surface 24 and an upper surface 25 is.

A holder section 20a is on the front surface 21 educated. The holder section 20a of the housing main body 20 is designed such that a control panel 30 , which is a control unit, attached to it and can be removed therefrom. Furthermore, the holder section 20a , which serves as a holding unit, which is the control panel 30 holds a concave shape on the control panel 30 on the front surface 21 can record. Each from the control panel 30 and the holder portion 20a has a port (not shown) therein, for transmitting signals between the control panel 30 and the control device within the housing main body 20 allows. By inserting the control panel 30 in the holder section 20a their connections are connected together, and it is achieved a state in which signals between the control panel 30 and the control device within the housing main body 20 can be transmitted. This can be done by an operator who controls the control panel 30 operated, an operation of the Device main Köpers 1 the power conversion device are performed.

At least one vent hole communicating with outside air is on the right side surface 22 intended. As in 1 and 2 illustrates, in this embodiment, two ventilation holes are provided, which is an air inlet 22a and an air outlet 22b is. The air intake 22a is a vent hole through which the outside air into the housing main body 20 is introduced. The air outlet 22b is a vent hole through which the inside air inside the housing main body 20 is discharged to the outside. The air intake 22a is preferably in an area of the lower half of the right side surface 22 in a posture state in which the device main body has been mounted, and the air outlet 22b is preferably in an area of the upper half of the right side surface 22 in the positional state in which the device main body 1 was mounted, provided.

Although none of the air intake 22a and the air outlet 22b is limited to being single, can have a plurality of air inlets 22a be provided, and / or there may be a plurality of air outlets 22b be provided. In this case is desirably on the right side surface 22 at least one air intake 22a provided in the lower half, and there is at least one air outlet 22b provided in the upper half. This will be within the housing main body 20 causes heat convection to cause the control device to radiant heat, and the cooling effect can be further improved. Further, the function of the air inlet and the function of the air outlet can also be realized by a single vent hole, and this vent hole can be designed, for example, by providing a slot in a downward direction. In this case, the air inlet and the air outlet in the housing main body 20 through the single vent hole that communicates between the inside and the outside. An air inlet may be on the lower surface 24 of the housing main body, and the air inlet needs only at least one or both of the area of the lower half of the right side surface 22 of the housing main body 20 and the lower surface 24 to be provided.

Near the air inlet 22a within the housing main body 20 is an air intake fan 26 provided, which serves as an air intake unit, which sucks air. By turning this air intake fan 26 For example, the outside air can be forced into the case main body 20 fed and imported. Further, by providing the air intake blower 26 near the air intake 22a the outside air having a lower temperature than a temperature within the housing main body 20 through the air intake fan 26 through, thereby suspending components of the air intake fan 26 against heat and effects of heat on the components can be prevented, and extending the life of the air intake fan 26 can be achieved.

Air can be supplied without providing the air intake fan 26 also in a natural way from the air intake 22a be admitted. In this case, the air whose temperature is raised by the heat convection, within the housing main body 20 is generated from the air outlet 22b drained. In addition, instead of providing the Luftansauggebläses 26 near the air intake 22a an air outlet blower for discharging the air inside the housing main body 20 near the air outlet 22b be provided.

The left side surface 23 is not provided with a ventilation hole and forms a closed surface. Thereby, according to this embodiment, as in FIG 4 Fig. 10 illustrates the device main body 1 be mounted such that the left side surface 23 which is one of the side surfaces of the wall 40 opposite. In particular, the device main body 1 in that mounting screws (not shown) are caused by the mounting holes 43a and 43b and the notches 41a and 41b of the frame body 10 penetrate, and be induced in the wall 40 to be screwed, also be mounted such that the left side surface 23 the Wall 40 opposite.

Furthermore, there is no ventilation hole on the left side surface 23 is provided, if the assembly with the left side surface 23 of the device main body 1 the Wall 40 the inlet and outlet of air into and out of the housing main body 20 itself is not inhibited, and therefore, a reduction in the cooling effect within the housing main body 20 be prevented. Thereby, even if a depth D of a predetermined mounting space is small, the mounting with the left side surface 23 the device main body 1 the Wall 40 performed opposite, whereby the mounting freedom compared to conventional devices is improved. In addition, as illustrated in the figure with arrows B ₀ and B, the inlet and the discharge of air into and out of the housing main body 20 in other directions from that of the air vent from the upper surface of the frame body 10 take place, as illustrated by arrow A, can be prevented be that the high temperature air coming from the upper surface of the frame body 10 is discharged into the housing main body 20 flowing back.

In this embodiment, on the lower surface 24 and the upper surface 25 one terminal each having an external wiring for communicating signals between the control device within the housing main body 20 and the outside connects, a terminal for input, through which power is input to the power conversion circuit, and a terminal for output, by which AC power is converted in a power conversion inverter circuit, though no vent holes are provided. That is, the bottom surface 24 and the upper surface 25 Both form closed surfaces. Thereby, an area in which the terminals for connecting the external wirings are arranged can be secured, whereby the design freedom can be improved.

As in this embodiment, by not providing vent holes on the left side surface 23 , the lower surface 24 and the upper surface 25 , as in 3 illustrated by the air intake 22a on the right side surface 22 sucked outside air into the housing main body 20 taken in, as illustrated by arrow B ₀ . Characterized in that the sucked outside air completely by heat convection through the housing main body 20 flows through, the control device in the housing main body 20 causes heat radiation and cooling, and the air is removed from the air outlet 22b on the same right side surface 22 drained as illustrated by arrow B. Further, by not providing a vent hole on the lower surface 24 of the housing main body 20 Do not put the problem on the inside of the case main body 20 This does not cool that of the air intake fan 26 sucked outside air escapes down without causing the heat radiation of the control device. There is also no ventilation hole on the upper surface 25 is provided, prevents dust, such as particulate matter, from above the housing main body 20 in the case main body 20 occurs, whereby the occurrence of a malfunction in the control device of the housing main body 20 can be prevented due to the dust.

If in addition ventilation holes in the area of the lower half of the right side surface 22 of the housing main body 20 and on the lower surface 24 can be provided by providing an air outlet blower (not shown) for expelling the air within the housing main body 20 preventing occurrence of the problem that the introduced outside air escapes downwardly without causing heat radiation of the control device.

According to the above-described embodiment of the present invention, the entry of dust such as particulate matter into the housing main body 20 , which forms the control room of the power conversion apparatus, are inhibited by the control apparatus in the housing main body 20 can be effectively cooled, and the assembly freedom of the power conversion apparatus and the freedom of design with respect to the arrangement of a terminal for connecting an external wiring can be improved.

Next, a modified example of the above-described embodiment will be described. 5 FIG. 15 is a perspective view illustrating a modified example of a mounting method in a case where the above-described power conversion device according to the embodiment is mounted on a wall. FIG.

As in 5 Illustrates, the device main body 1 in this modified example such that a back surface 11 opposite the side of the housing main body 20 in the frame body 10 connected to the wall 40 that is, such that the rear surface of the housing main body 20 the Wall 40 are mounted by causing the mounting screws (not shown) through the mounting holes 44a and 44b and the notches 42a and 42b of the frame body 10 penetrate and into the wall 40 be screwed. Thereby, even if a width W in a predetermined mounting space is narrow, the possibility that the device main body 10 is improved 1 can be mounted, whereby the mounting freedom compared to conventional devices can be further improved.

In addition, in this modified example, without providing a vent hole on the right side surface 22 an air intake 23a and an air outlet 23b that serve as the ventilation holes, only on the left side surface 23 be provided. As already mentioned, since the ventilation holes only on the left side surface 23 may be provided by determining the positions for arranging the air inlet and the air outlet according to the mounting location of the device main body 1 mounting is possible in a place where mounting has conventionally been difficult, and space can be saved.

The embodiment of the present invention has been specifically described above, but the present invention is not limited to the above-described embodiment, but various modifications may be made based on the technical ideas of the present invention. For example, the structure of the case main body mentioned in the above-described embodiment is 20 and the frame body 10 merely an example, and a case main body and a frame body may be structured differently if necessary.

In particular, the assembly in the embodiment described above is performed such that the left side surface 23 on which no ventilation holes are provided facing the wall, but the functions of the right side surface 22 and the left side surface 23 can be reversed. That is, as described with respect to the modified example, the air intake 23a and the air outlet 23b on the left side surface 23 can be provided, and the assembly with the right side surface 22 the Wall 40 can be made opposite.

LIST OF REFERENCE NUMBERS

1

DEVICE MAIN BODY

10

FRAME BODY

11

BACK AREA

20

HOUSING MAIN BODY

20a

HOLDER SECTION

21

FRONT AREA

22

RIGHT SIDE PANEL

22a, 23a

AIR INTAKE

22b, 23b

AIR OUTLET

23

LEFT SIDE PANEL

24

LOWER AREA

25

UPPER AREA

26

air intake fan

30

CONTROL PANEL

40

WALL

41a, 41b, 42a, 42b

SCORE

43a, 43b, 44a, 44b

MOUNTING HOLE

Claims (5)

A power conversion device comprising: a case main body accommodating therein a semiconductor element constituting a power conversion circuit; and a frame body which is fixed to a rear surface of the housing main body and accommodates a heat sink of the semiconductor element, wherein the power conversion device is mounted such that the rear surface or one of the side surfaces of the case main body faces a mounting wall, housing main body side vent holes communicating between the inside and the outside of the case main body, provided only on the other of the side surfaces, or only on the other of the side surfaces and a bottom surface of the case main body, and frame-body-side vent holes communicating between the inside and outside of the frame body are provided on an upper surface and a lower surface of the frame body. The power conversion apparatus according to claim 1, wherein the housing main body side vent holes are formed of at least one air inlet and at least one air outlet. The power conversion apparatus according to claim 2, wherein the air inlet is provided in at least one of the lower surface of the case main body and a lower half portion on the other of the side surfaces of the case main body in a positional state in which the case main body is mounted, and the air outlet in an area the upper half is provided on the other of the side surfaces of the case main body in the posture state in which the case main body has been mounted. A power conversion apparatus according to claim 2 or 3, wherein an air intake unit configured to introduce outside air into the housing main body is provided in the vicinity of the air inlet within the housing main body. A power conversion apparatus according to claim 2 or 3, wherein an air outlet unit configured to output indoor air from within the housing main body is provided in the vicinity of the air outlet within the housing main body.

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